CN108906844B - Method for treating waste organic matter container - Google Patents

Abstract

The invention relates to a method for treating waste organic containers, which comprises the steps of classifying waste pigments, dyes, coatings and paint packaging containers, adding 3% of filler, 3% of auxiliary agent and 2% of dispersing agent into regenerated water-based paint according to the proportion of waste liquid, and using 40% of water-soluble resin as a base material; 3% of filler, 3% of additive, 3% of auxiliary agent, 40% of resin and 2% of dispersing agent are added into the regenerated solvent paint according to the proportion of the waste liquid; 25% of 25# transformer oil, 0.2% of benzotriazole and 7% of antirust agent are added into waste oil according to the proportion of the waste oil, wherein, for the method of using, researching and developing new waste pigment packaging containers, waste dye packaging containers, waste paint packaging containers and the like for recycling, the method can treat both symptoms and root causes, can radically treat the environmental pollution of waste pigments, waste dyes, waste coatings, waste paints and waste oil packaging containers flowing down to each corner, and effectively stops pollution sources; the regenerated water paint, the regenerated solvent paint and the waste oil packaging container are classified correspondingly, the recycling rate is improved, and cross contamination is prevented.

Description

Method for treating waste organic matter container

Technical Field

The invention relates to recycling of waste pigment, dye, coating and paint packaging containers, in particular to a method for treating waste organic matter containers.

Background

The waste pigment, waste dye packaging container, waste paint packaging container and waste paint packaging container often fall to the environment of each corner to cause pollution sources.

There is a waste paint bucket treatment facility that this patent of a waste paint bucket treatment facility application number 201620944914.8 provides a waste paint bucket treatment facility, the shredding device, breaker, cylinder belt cleaning device, washing unit, the drying device who connects gradually. The waste paint bucket treatment equipment is simple in structure, convenient to use and low in cost, can realize continuous treatment of the waste paint bucket, is good in treatment effect, and greatly reduces environmental pollution.

Still another kind is used for waste paint bucket recovery to handle the heat recovery system who recycles, applies for: 201510630334.1 this patent relates to a heat recovery system for the recycling of used paint buckets. Including monitored control system, hot clean stove system, waste heat recovery system, the heat accumulation formula system of burning, clean system and spraying system, hot clean stove system department is provided with waste heat recovery system, clean system includes electrostatic precipitator system and filter bag formula dust pelletizing system, waste heat recovery system one end is connected with the heat accumulation formula system of burning, the waste heat recovery system other end passes through the pipeline and is connected with a plurality of electrostatic precipitator systems, a plurality of electrostatic precipitator system other ends pass through the pipeline and are connected with filter bag formula dust pelletizing system, filter bag formula dust pelletizing system passes through the pipeline and is connected with first exhaust system, heat accumulation formula system of burning and hot clean stove system have secondary combustion system through the pipe connection respectively, secondary combustion system department is connected with the second exhaust system, the heat accumulation formula system of burning, hot clean stove system and secondary combustion system are connected with spraying system respectively. The invention has simple structure, high heat recovery utilization rate and good safety performance.

The above patent documents incinerate organic substances, and do not recycle the organic substances, thereby causing secondary waste and secondary pollution.

Disclosure of Invention

The invention provides a method for treating waste organic matter containers, which has a good working environment and an ecological environment and avoids pollution sources.

The technical scheme of the invention is that the method for treating the waste organic matter container comprises the steps of classifying waste pigment, dye, coating and paint packaging containers, and is characterized in that:

the method for treating the water-based pigment, dye, paint and paint packaging container comprises the following steps:

(1) putting the water-based pigment, the dye, the paint and the paint packaging container into a cleaning tank, heating to 80 ℃, dissolving dry and wet waste materials adhered to the inner wall of the barrel, and cleaning with a brush;

(2) in the cleaning process, the good packaging containers are selected and stored separately, and are continuously used for packaging and recycling; crushing the waste rotten packaging container into iron sheets with the size of 5-10 cm by a crusher, putting the iron sheets into a reaction kettle, heating water to 80 ℃, and dissolving dry and wet waste materials on the iron sheets; recovering iron sheets;

(3) and respectively collecting and storing the washed waste liquid, the water-based pigment, the dye, the coating and the paint according to the color and luster to prepare the regenerated water-based paint.

Method for preparing regenerated water paint

Firstly, adding the cleaned waste liquid into a reaction kettle, adding 3% of filler, 3% of auxiliary agent and 2% of dispersing agent according to the proportion of the waste liquid, using 40% of water-soluble resin as a base material, stirring while adding until the added materials are completely dissolved and uniformly mixed, and generally stirring for more than 2 hours;

secondly, filtering the mixed and stirred water paint by using a 150-mesh wire mesh for the first time;

thirdly, grinding the filtered regenerative paint by a grinder or a sand mill or a colloid mill,

after grinding, adjusting according to color and viscosity, and stirring again after adjusting;

fourthly, feeding the qualified regenerated paint into a bag type filter through a diaphragm pump for filtering; weighing the filtered water paint by a packaging machine, pressing a cover, labeling a qualification certificate, and warehousing for sale.

Secondly, the processing method for the solvent pigment, dye, coating and paint packaging container comprises the following steps:

the method comprises the following steps of sorting and storing recycled solvent pigment, dye, coating and paint packaging containers, and is characterized in that: selecting good packaging containers for independent storage, and continuously using the containers for packaging and recycling; crushing the waste rotten packaging container into iron sheets with the size of 5-10 cm by a crusher, putting the iron sheets into a reaction kettle, adding a solvent into the reaction kettle, starting a stirrer, adding the iron sheets while stirring until waste materials adhered to the iron sheets are cleaned; collecting and storing waste liquid cleaned in the reaction kettle to prepare the regenerated finished qualified paint.

Method for preparing regenerated solvent paint

Collecting and storing the waste liquid in the reaction kettle, adding 3% of filler, 3% of additive, 3% of auxiliary agent, 40% of resin and 2% of dispersing agent according to the proportion of the waste liquid, starting a stirrer before feeding, stirring and feeding simultaneously, stirring at high speed for 1 hour after feeding, and filtering for the first time by using a 150-mesh silk screen after materials in the reaction kettle are uniformly mixed and dissolved;

pumping the filtered mixture into a reaction kettle after the first filtering is finished, stirring and mixing colors, and grinding the mixture by a grinder or a sand mill or a colloid mill after the color is finished; and after the second grinding, feeding the mixture into a 40-micron electric filter bag through a diaphragm pump for filtering, and detecting the regenerated solvent paint to be qualified to obtain a finished product.

Thirdly, the treatment method of the waste oil packaging container comprises the following steps:

separating the cleaned waste oil liquid by an oil-water separator to prepare anti-rust oil; the preparation method of the anti-rust oil comprises the following steps: filtering the separated waste liquid, adding 25% of 25# transformer oil, 0.2% of benzotriazole and 7% of antirust agent according to the proportion of the waste liquid, heating to 95 ℃, preserving heat, adding materials while stirring for 2 hours for dehydration, cooling to 45 ℃ after the added materials are completely dissolved, filtering, and obtaining the finished product after the detection is qualified.

Has the advantages that:

by using a new method for recycling waste pigment packaging containers, waste dye packaging containers, waste paint packaging containers and the like, both symptoms and root causes can be treated, the environmental pollution of waste pigments, waste dyes, waste coatings, waste paints and waste oil packaging containers flowing down to each corner can be radically treated, and pollution sources are effectively eliminated.

The regenerated water paint, the regenerated solvent paint and the waste oil packaging container are classified correspondingly, the recycling rate is improved, and cross contamination is prevented.

Detailed Description

A method for processing waste organic containers comprises the steps of classifying waste pigment, dye, coating and paint packaging containers, wherein the first method for processing the water-based pigment, dye, coating and paint packaging containers comprises the following steps:

(1) putting the water-based pigment, the dye, the paint and the paint packaging container into a cleaning tank, heating to 80 ℃, dissolving dry and wet waste materials adhered to the inner wall of the barrel, and cleaning with a brush;

(2) in the cleaning process, the good packaging containers are selected and stored separately, and are continuously used for packaging and recycling; crushing the waste rotten packaging container into iron sheets with the size of 5-10 cm by a crusher, putting the iron sheets into a reaction kettle, heating water to 80 ℃, and dissolving dry and wet waste materials on the iron sheets; recovering iron sheets;

(3) and respectively collecting and storing the washed waste liquid, the water-based pigment, the dye, the coating and the paint according to the color and luster to prepare the regenerated water-based paint.

Method for preparing regenerated water paint

Firstly, adding the cleaned waste liquid into a reaction kettle, adding 3% of filler, 3% of auxiliary agent and 2% of dispersing agent according to the proportion of the waste liquid, using water-soluble resin as a base material, stirring while adding until all the added materials are dissolved and uniformly mixed, and generally stirring for more than 2 hours;

secondly, filtering the mixed and stirred water paint by using a 150-mesh wire mesh for the first time;

thirdly, grinding the filtered regenerative paint by a grinder or a sand mill or a colloid mill,

after grinding, adjusting according to color and viscosity, and stirring again after adjusting;

fourthly, feeding the qualified regenerated paint into a bag type filter through a diaphragm pump for filtering; weighing the filtered water paint by a packaging machine, pressing a cover, labeling a qualification certificate, and warehousing for sale.

。

Secondly, the processing method for the solvent pigment, dye, coating and paint packaging container comprises the following steps:

the method comprises the steps of sorting and storing recycled solvent pigment, dye, coating and paint packaging containers, selecting the good packaging containers for independent storage, and continuously using the containers for packaging and recycling; crushing the waste rotten packaging container into iron sheets with the size of 5-10 cm by a crusher, putting the iron sheets into a reaction kettle, adding a solvent into the reaction kettle, starting a stirrer, adding the iron sheets while stirring until waste materials adhered to the iron sheets are cleaned; collecting and storing waste liquid cleaned in the reaction kettle to prepare the regenerated finished qualified paint.

Method for preparing regenerated solvent paint

Collecting and storing the waste liquid in the reaction kettle, adding 3% of filler, 3% of additive, 3% of auxiliary agent, 41% of solvent resin and 4% of dispersing agent according to the proportion of the waste liquid, starting a stirrer before feeding, stirring and feeding simultaneously, stirring at high speed for 1 hour after feeding, and filtering for the first time by using a 150-mesh silk screen after materials in the reaction kettle are uniformly mixed and dissolved;

pumping the filtered mixture into a reaction kettle after the first filtering is finished, stirring and mixing colors, and grinding the mixture by a grinder or a sand mill or a colloid mill after the color is finished; and after the second grinding, feeding the mixture into a 40-micron electric filter bag through a diaphragm pump for filtering, and detecting the regenerated solvent paint to be qualified to obtain a finished product.

。

Thirdly, the treatment method of the waste oil packaging container comprises the following steps:

separating the cleaned waste oil liquid by an oil-water separator to prepare anti-rust oil; the preparation method of the anti-rust oil comprises the following steps: filtering the separated waste liquid, adding 25% of 25# transformer oil, 0.2% of benzotriazole and 7% of antirust agent according to the proportion of the waste liquid, heating to 95 ℃, preserving heat, stirring for 2 hours while adding materials, dehydrating, cooling to 45 ℃ after the added materials are completely dissolved, filtering, and detecting.

Claims (2)

1. A method for processing waste organic containers comprises the steps of classifying waste pigment, dye, coating and paint packaging containers, and is characterized in that:

the method for treating the water-based pigment, dye, paint and paint packaging container comprises the following steps:

(1) putting a water-based pigment, dye, paint and paint packaging container into a cleaning tank, heating to 80 ℃, dissolving dry and wet waste adhered to the inner wall of the barrel, and cleaning with a brush;

(2) in the cleaning process, the good packaging containers are selected and stored separately, and are continuously used for packaging and recycling; crushing the waste rotten packaging container into iron sheets with the size of 5-10 cm by a crusher, putting the iron sheets into a reaction kettle, heating water to 80 ℃, and dissolving dry and wet waste materials on the iron sheets; recovering iron sheets;

(3) respectively collecting and storing the water-based pigment, the dye, the coating and the paint in the cleaned waste liquid according to the color and luster to prepare regenerated water-based paint;

the preparation method of the regenerated water-based paint comprises the following steps:

firstly, adding the cleaned waste liquid into a reaction kettle, adding 3% of filler, 3% of auxiliary agent and 2% of dispersing agent according to the proportion of the waste liquid, using 40% of water-soluble resin as a base material, and stirring while adding until all the added materials are dissolved and uniformly mixed;

secondly, filtering the mixed and stirred water-based paint by using a 150-mesh silk screen for the first time;

grinding the filtered regenerative paint by using a grinding machine or a sand mill or a colloid mill, and stirring again after grinding;

fourthly, feeding the qualified regenerated paint into a bag type filter through a diaphragm pump to filter to obtain a finished product;

the method for processing the solvent pigment, dye, coating and paint packaging container comprises the following steps:

the method comprises the steps of sorting and storing recycled solvent pigment, dye, coating and paint packaging containers, selecting the good packaging containers for independent storage, and continuously using the containers for packaging and recycling; crushing the waste rotten packaging container into iron sheets with the size of 5-10 cm by a crusher, putting the iron sheets into a reaction kettle, adding a solvent into the reaction kettle, starting a stirrer, adding the iron sheets while stirring until waste materials adhered to the iron sheets are cleaned; collecting and storing waste liquid cleaned in the reaction kettle to prepare regenerated finished qualified paint;

the preparation method of the regenerated solvent paint comprises the following steps:

collecting and storing the waste liquid in the reaction kettle, adding 3% of filler, 3% of additive, 3% of auxiliary agent, 40% of resin and 2% of dispersing agent according to the proportion of the waste liquid, starting a stirrer before feeding, stirring and feeding simultaneously, stirring at high speed for 1 hour after feeding, and filtering for the first time by using a 150-mesh silk screen after materials in the reaction kettle are uniformly mixed and dissolved;

pumping into a reaction kettle after the first filtering, stirring and mixing colors, and grinding by a grinder or a sand mill or a colloid mill after mixing colors for the second pass; and after the second grinding, feeding the mixture into a 40-micron electric filter bag through a diaphragm pump for filtering, and detecting the regenerated solvent paint to be qualified to obtain a finished product.

2. A method for treating waste organic containers, as claimed in claim 1, characterized in that: the processing method for the waste oil packaging container comprises the following steps: separating the cleaned waste oil liquid by an oil-water separator to prepare anti-rust oil; filtering the separated waste liquid, adding 25% of 25# transformer oil, 0.2% of benzotriazole and 7% of antirust agent according to the proportion of the waste liquid, heating to 95 ℃, preserving heat, stirring for 2 hours while adding materials, dehydrating, cooling to 45 ℃ after the added materials are completely dissolved, filtering, and obtaining the finished product after the detection is qualified.